TY  - BOOK
AU  - Li,P.H.
TI  - Low temperature stress physiology in crops
SN  - 9781315895086
U1  - E-BOOK (Available ON-CAMPUS only) 
PY  - 2018///
CY  - Boca Raton, FL
PB  - CRC Press
KW  - Plants
KW  - Frost resistance
KW  - Congresses
KW  - Crops
KW  - Effect of stress on
KW  - Effect of cold on
N1  - PART I. RESPONSES OF CHILLING-INSENSITIVE PLANTS TO LOW STRESS TEMPERATURES; 1 The Induction of Cold Acclimation: The Role of Abscisic Acid
 - 2 Metabolic Consequences of Low Temperature Stress in Chilling-Insensitive Plants
 - 3 Alterations of Plasma Membranes Related to Cold Acclimation of Plants
 - 4 Development at Cold-Hardening Temperatures: Membrane Assembly and Organization
 - 5 The Role of Phenolic Compounds in Plant Stress Responses
 - 6 Ethylene-Induced Stress Resistance
 - 7 Environmental Control of Growth Behavior and Cold Hardiness in Arctic and Subarctic Plants
 - 8 Low Temperature Injury in Winter Cereals
 - 9 Plasma Membrane H+-ATPase as a Site of Functional Alteration during Cold Acclimation and Freezing Injury
 - 10 Cryopresemation of Plant Cells and Organs
 - 11 Properties of Peach Flower Buds which Facilitate Supercooling
 - 12 Forcasting Hardiness for Winter Cold Protection in Peach Orchards
; PART II: RESPONSES OF CHILLING-SENSITIVE PLANTS TO LOW TEMPERATURE STRESS; 13 Mefluidide: A Synthetic Chemical that Protects Corn and Rice Seedlings from Chilling Injury
 14 Relation of Chilling Stress to Ethylene Production

N2  - The importance of low temperature stress physiology research has become increasingly apparent in agriculture for productions of food, fibre and ornamental plants. This volume consists of two parts, there are a total of 14 chapters including 6 chapters dealing with cold accumulation related topics, 6 dealing with freeze stress and 2 related to ethylene production and mefluidide protection
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